Highly active CeO2-CuCo nanoparticles supported on hollow N-doped carbon spheres for boosting ammonia borane hydrolysis and tandem 4-nitrophenol reduction reactions

[Display omitted] •Highly active CeO2/CuCo NPs were supported on hollow N-doped carbon spheres.•The catalyst facilitated AB hydrolysis and one-pot tandem reduction of 4-nitrophenol.•Noble metal-comparable catalytic performance was achieved with exceptional TOF of 2830.2 h−1.•Broad substrate scope wa...

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Published in:Materials science & engineering. B, Solid-state materials for advanced technology Solid-state materials for advanced technology, 2024-05, Vol.303, p.117330, Article 117330
Main Authors: Ma, Di, Bai, Zhiyong, Jiang, Yue, Yang, Zhidong, Yang, Chen, Iqbal, Kanwal, Liu, Jixiang, Wu, Jianfeng, Zhou, Panpan, Ye, Weichun
Format: Article
Language:English
Subjects:
4-Nitrophenol reduction
Ammonia borane hydrolysis
CeO2/CuCo nanoparticles
Hollow N-doped carbon spheres
Tandem catalysis
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Summary:[Display omitted] •Highly active CeO2/CuCo NPs were supported on hollow N-doped carbon spheres.•The catalyst facilitated AB hydrolysis and one-pot tandem reduction of 4-nitrophenol.•Noble metal-comparable catalytic performance was achieved with exceptional TOF of 2830.2 h−1.•Broad substrate scope was utilized including various aromatic nitro compounds. It’s a safe method to use high hydrogen density ammonia borane (AB) to facilitate the tandem hydrogenation of aromatic nitro compounds. While a major problem for tandem hydrogenation, the development of non-noble metal catalysts with high activity and stability is encouraging. This work involved the synthesis of highly active CeO2/CuCo nanoparticles support on hollow N-doped carbon spheres and its investigation for AB hydrolysis, taking into account the impacts of the HNCSs and CeO2 supports. Because CuCo alloy, CeO2, and HNCSs supports worked in concert, HNCSs@CeO2/CuCo was found to be the best catalyst. The activation energy achieved was comparable to the reported Pd- and Pt-based catalysts, with a value as low as 21.8 kJ/mol. Using AB as the in-situ H2 source, HNCSs@CeO2/CuCo exhibited a significant degree of activity in the one-pot tandem reduction of 4-NP with the turnover frequency of 2830.2 h−1, even surpassing over ten times of some noble metal catalysts. Following five consecutive cycles of reaction condition tuning, the HNCSs@CeO2/CuCo catalyst demonstrated a constant conversion efficiency. Also, the catalyst's uses for one-pot tandem reduction of other highly active aromatic nitro compounds were expanded.
ISSN:0921-5107
1873-4944
DOI:10.1016/j.mseb.2024.117330